What is the convention for defining polarization direction in EM waves?

In summary, the conversation discusses the concept of polarization and how it affects light. It is determined that when a polarizer is placed in front of an unpolarized source, the intensity of the light is halved. The conversation also delves into the "Law of Malus" and how it explains the intensity of light passing through multiple polarizers. It is also mentioned that polarized glasses are designed to block glare by aligning with either horizontal or vertical polarization. The conversation concludes with a question about the convention for defining polarization and how it may have been established.
  • #1
UrbanXrisis
1,196
1
I have a quick question about polarization. When I put a polarizer up an unpolarized source, say the polarizer blocks all the polarization in th y direction and so all the photons in the x direction comes out of the polarizer. Is the intesity halved?

It seems to me that the intensity should be halved, however, as described in http://hyperphysics.phy-astr.gsu.edu/HBASE/phyopt/polcross.html#c2"

why isn't the polarization of the of the three polarizers 1/6 the regular intensity instead of 1/4 as it describes in the example?
 
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  • #2
UrbanXrisis said:
why isn't the polarization of the of the three polarizers 1/6 the regular intensity instead of 1/4 as it describes in the example?
Follow the “Law of Malus” at the same web site.
After the light is polarized by filter 1 and then filter 2
Malus says 1/2 get though – and will be aligned with #2
Filter 3 is 45o off from #2 so again
Malus says 1/2 get though – now aligned with #3

1/2 times 1/2 gives the 1/4 they were talking about
BUT remember they are comparing to the light coming though filter 1
NOT the original light.
Compared to the original assumed un-polarized source it would be 1/8.
Because, Yes the first filter removed 1/2 the light.

Another simple one:
Polarized glasses set their polarization H or V to block predominate glare caused by reflected off flat surfaces like water.
So what is the convention for defining polarization between Horizontal and Vertical?
Are Sunglasses polarized V to allow V light though, thus blocking H glare?
OR is glare V thus Sunglasses are polarized to H so that V is blocked?

What is the polarized direction aligned with in the EM wave, the E (Electric) or the M (Magnetic)?

A matter of convention - just what is the convention?
Maybe someone even knows how the convention was established.
Example: Ben Franklin or those of his time a generally credited with establishing the charge polarity convention that resulted in the electron being defined as “-" not “+”.
 

What is the intensity of polarization?

The intensity of polarization is a measure of the degree to which a light wave is polarized. It is a quantitative measure of the alignment of the electric field vector of the light wave.

How is intensity of polarization measured?

The intensity of polarization can be measured using a polarimeter, which uses a polarizing filter to measure the amount of light that is polarized in a specific direction. This measurement is usually expressed as a percentage of the total light intensity.

What factors affect the intensity of polarization?

The intensity of polarization can be affected by the angle of incidence of the light wave, the material through which the light is passing, and the wavelength of the light. The intensity of polarization is also dependent on the degree of polarization of the light wave.

Why is the intensity of polarization important?

The intensity of polarization is important in many scientific and technological fields, such as optics, astronomy, and telecommunications. It can provide valuable information about the properties of light waves and can be used to manipulate and control the polarization of light for various applications.

How is the intensity of polarization used in research?

The intensity of polarization is used in various research fields, such as material science, biology, and atmospheric science. It can be used to study the structure and properties of materials, analyze biological samples, and understand the behavior of light in the atmosphere.

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